The range of 'y, such that the equation in x, `y + cos x = sin x` has a real solution is

Find the value of 'a' which the system of equation sin x * cos y=a^(2) and sin y* cos x =a have a solution

If [x] dnote the greatest integer less than or equal to x then the equation sin x=[1+sin x ]+[1-cos x ][ has no solution in

Verify that the function y = a cos x + b sin x , where a,b in R is a solution of the differential equation (d^(2)y)/(dx^(2)) + y = 0

Find the number of solution of the equations sin^3 x cos x + sin^(2) x* cos^(2) x+sinx * cos^(3) x=1 , when x in[0,2pi]

y = cos x + C : y' + sin x = 0

y = e^(x)(a cos x + b sin x)

Statement I The system of linear equations x+(sin alpha )y+(cos alpha )z=0 x+(cos alpha ) y+(sin alpha )z=0 -x+(sin alpha )y-(cos alpha )z=0 has a not trivial solution for only one value of alpha lying between 0 and pi . Statement II |{:(sin x, cos x , cos x),( cos x , sin x , cos x) , (cos x , cos x , sin x ):}|=0 has no solution in the interval -pi//4 lt x lt pi//4 .

The number of solutions of the equation 16(sin^(5)x +cos^(5)x)=11(sin x + cos x) in the interval [0,2pi] is

Draw the graph of the equation x - 2y = 3. From the graph find (i) The solution (x, y) where x = - 5 (ii) The solution (x, y) where y = 0 (iii) The solution (x, y) where x = 0